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6. [Studies on josamycin. 3. (1) Bacteriological studies. (2) Protective effect against infections due to pathogenic bacteria. (3) Absorption, excretion, distribution in organs and in vivo activities]

Author

T, Osono, K, Yano, F, Mitamoto, S, Watanabe, and H, Ishida

Subjects
Adult, Male, Streptococcus pyogenes, Staphylococcus, Sarcina, Leucomycins, Pneumococcal Infections, Mice, Mycoplasma, Escherichia coli, Animals, Humans, Infection Control, Immune Sera, Drug Resistance, Microbial, Hydrogen-Ion Concentration, Staphylococcal Infections, Streptomyces, Anti-Bacterial Agents, Culture Media, Erythromycin, Rats, Chloramphenicol, Streptococcus pneumoniae, Rabbits, Bacillus subtilis
Published
1969

11. Evaluation of the persistence of Epichloë endophyte and its possible effect on fungal assemblages in dead leaf sheaths.

Author

Hatano Y, Matsuoka S, Doi H, Tateno R, Hasegawa M, and Osono T

Subjects
Japan, Elymus microbiology, DNA Barcoding, Taxonomic, Endophytes classification, Endophytes physiology, Endophytes genetics, Endophytes isolation & purification, Plant Leaves microbiology, Epichloe physiology, Epichloe genetics
Abstract

The systemic fungal endophytes of the genus Epichloë inhabit the aerial part of host grasses. Recent studies have reported that Epichloë affects the non-systemic endophytic assemblages in live leaves, but few studies that have demonstrated the occurrence of Epichloë and its effect on fungal assemblages in dead leaves. We proposed a hypothesis that Epichloë decreases from live to dead leaves but affects the non-systemic endophytic assemblages also in dead leaves. To test this hypothesis, we sampled leaf sheaths from four leaf types (live, senescent, attached dead and fallen dead) of two native grass species Elymus racemifer and Elymus tsukushiensis var. transiens in Japan and assessed for fungi by DNA metabarcoding. The occurrence of Epichloë OTU was significantly greater in E. tsukushiensis var. transiens than in E. racemifer and varied significantly between the four-leaf types, with decreased and no detections in attached dead and fallen dead leaves, respectively. The composition of non-systemic endophytic assemblages was also significantly affected by the presence/absence of Epichloë OTU, leaf type, host grass species and their interactions. These results supported our hypothesis and suggested that Epichloë can indirectly lead to the changes in belowground processes such as litter decomposition by affecting saprotrophic fungi in dead leaves., Competing Interests: Declaration of competing interest All authors have no relevant financial or non-financial interests to disclose., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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12. Diversity of ligninolytic ascomycete fungi associated with the bleached leaf litter in subtropical and temperate forests.

Author

Yoneda M, Ameno H, Nishimura A, Tabuchi K, Hatano Y, and Osono T

Abstract

Little is known regarding the diversity patterns of Xylariaceae and Hypoxylaceae (Ascomycota) fungi taking part in the lignin decomposition of leaf litter from different tree species and under different climatic regions. The alpha and beta diversity of Xylariaceae and Hypoxylaceae fungi was investigated on bleached leaf litter from nine subtropical and cool temperate tree species in Japan. A total of 248 fungal isolates, obtained from 480 leaves from the nine tree species, were classified into 43 operational taxonomic units (OTUs) with a 97% similarity threshold and were assigned to nine genera of Xylariaceae and Hypoxylaceae. There was no overlap of fungal OTUs between subtropical and cool temperate trees. The mean number of fungal OTUs was generally higher in subtropical than cool temperate trees, whereas rarefaction curves depicting the numbers of OTU with respect to the number of leaves from which fungi were isolated were less steep in subtropical trees than in cool temperate trees, reflecting the dominance of major OTUs in the subtropical trees and indicating a higher species richness in cool temperate regions. Nonmetric multidimensional scaling showed general overlaps of fungal OTU compositions among tree species in the respective climatic regions, and one-way permutational multivariate analysis of variance indicated that the OTU composition was not significantly different between the tree species. These results suggest a wide host range and some geographic and climatic structures of distribution of these ligninolytic fungi., Competing Interests: Conflict of interest: The authors declare no conflict of interest., (© 2024 the Author(s), licensee AIMS Press.)

Published
2024
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13. Metabolic Diversity of Xylariaceous Fungi Associated with Leaf Litter Decomposition.

Author

Tabuchi K, Hirose D, Hasegawa M, and Osono T

Abstract

Fungi in the family Xylariaceae are primary agents of leaf litter decomposition. However, the diversity of carbon source utilization by xylariaceous fungi and the relative effects on this from environmental and phylogenetic factors are largely unknown. This study assessed the metabolic diversity and redundancy of xylariaceous fungi, associated with leaf litter decomposition, by measuring their in vitro capacity to utilize multiple carbon sources. The work identified the relative influences of geographic and climatic sources, as well as the taxonomic and phylogenetic relatedness, of the fungi. Using Biolog EcoPlate TM , 43 isolates belonging to Nemania , Xylaria , Nodulisporium , Astrocystis , and Hypoxylon, isolated from Castanopsis sieboldii leaf litter at eight sites in Japan, were found to have the capacity to utilize a variety of carbohydrates, amino acids/amines, carboxylic acids, and polymers. The genera of xylariaceous fungi and their origins significantly affected their metabolic diversity and utilization of carbon sources. Variation partitioning demonstrated that dissimilarities in carbon utilization among fungal isolates were mostly attributable to site differences, especially climatic factors: mean annual temperature and precipitation, and maximum snow depth. Moreover, xylariaceous isolates that originated from adjacent sites tended to have similar patterns of carbon source utilization, suggesting metabolic acclimation to local environmental conditions.

Published
2022
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14. Functionally explicit partitioning of plant β-diversity reveal soil fungal assembly in the subarctic tundra.

Author

Masumoto S, Kitagawa R, Nishizawa K, Kaneko R, Osono T, Hasegawa M, Matsuoka S, Uchida M, and Mori AS

Subjects
Arctic Regions, Biodiversity, Fungi genetics, Tundra, Ecosystem, Soil
Abstract

Metabarcoding technologies for soil fungal DNA pools have enabled to capture the diversity of fungal community and the agreement of their β-diversity with plant β-diversity. However, processes underlying the synchrony of the aboveground-belowground biodiversity is still unclear. By using partitioning methods for plant β-diversity, this study explored the process driving synchrony in tundra ecosystems, in which drastic vegetation shifts are observed with climate warming. Our methods based on Baselga's partitioning enabled the division of plant β-diversity into two phenomena and three functional components. Correlation of fungal β-diversity with the components of plant β-diversity showed that the spatial replacement of fungi was promoted by plant species turnover, in particular, plant species turnover with functional exchange. In addition, spatial variety of graminoid or forbs species, rather than shrubs, enhanced fungal β-diversity. These results suggest the importance of small-scale factors such as plant-fungal interactions or local environments modified by plants for the fungal community assemblage. The process-based understanding of community dynamics of plants and fungi allows us to predict the ongoing shrub encroachment in the Arctic region, which could weaken the aboveground-belowground synchrony., (© The Author(s) 2021. Published by Oxford University Press on behalf of FEMS. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2021
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15. Variability of decomposing ability among fungi associated with the bleaching of subtropical leaf litter.

Author

Osono T, Hirose D, and Matsuoka S

Subjects
Forests, Lignin, Plant Leaves, Trees, Ascomycota, Fungi
Abstract

A diverse array of fungi take part in decomposition, but the variability of their decomposing ability is not fully understood. A total of 49 isolates of Ascomycota and Basidiomycota were obtained from bleached areas of leaf litter in a subtropical forest in southern Japan, and their ability to decompose leaves and recalcitrant compounds was quantified in pure culture. Mass loss of leaves of Castanopsis sieboldii (Fagaceae) and Schima wallichii (Theaceae) was evaluated at 20 C for 12 wk in vitro. Fungi caused a loss of -0.4% to 34.3% of the original leaf mass. The greatest mass loss was caused by four isolates of Mycena (Tricholomataceae). Isolates of Lachnocladiaceae caused greater mass loss of recalcitrant compounds, registered as acid-unhydrolyzable residue (AUR), which includes lignin, relative to Xylariaceae. Isolates of Rhytismataceae, Lachnocladiaceae, Marasmiaceae, and Omphalotaceae exhibited selective decomposition of AUR, Mycena exhibited simultaneous decomposition of AUR and components other than AUR, and Xylariaceae exhibited selective decomposition of components other than AUR. Mass losses of leaves and AUR caused by each fungal isolate were similar for C. sieboldii and S. wallichii . The Mycena isolates obtained from C. sieboldii caused greater mass losses of leaves and AUR than those obtained from the other tree species, suggesting a "home-field advantage" of decomposing potentialities, with implications for natural interactions beyond the in vitro system evaluated here.

Published
2021
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16. Bleaching of leaf litter accelerates the decomposition of recalcitrant components and mobilization of nitrogen in a subtropical forest.

Author

Osono T, Hiradate S, and Hobara S

Abstract

Selective removal of lignin and other recalcitrant compounds, collectively registered as acid-unhyrolyzable residue (AUR), results in bleaching of leaf litter, but the importance of bleaching in decomposition processes on forest soil has not been fully evaluated. The aims of this study were to elucidate the occurrence of bleached area in decomposing leaf litter and to compare chemical composition between bleached and nonbleached portions in a subtropical forest in Japan. Field incubation of leaf litter was performed over an 18-month period with the litterbag method. The decomposition processes during the first 9 month were characterized by the relatively rapid mass loss and increase of bleached area, whereas the mass loss was slowed down and the bleached area decreased thereafter. Mass loss of leaf tissues was faster and AUR content was lower in bleached than in nonbleached portions, indicating the acceleration of mass loss in bleached leaf tissues by the selective decomposition of recalcitrant compounds. The decrease in carbonyl-C in the bleached portions was associated with the increase of extractable nitrogen. The results suggest that the bleaching plays a dominant role in the transformation and turnover of organic compounds and nitrogen in decomposing leaf litter.

Published
2021
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17. Diversity and Geographic Distribution of Ligninolytic Fungi Associated With Castanopsis sieboldii Leaf Litter in Japan.

Author

Osono T, Matsuoka S, and Hirose D

Abstract

The diversity and geographic pattern of ligninolytic fungi were investigated within the distribution range of an evergreen tree, Castanopsis sieboldii (Fagaceae), in Japan. Fungal isolates obtained from 18 sites in subtropical and temperate regions in Japan were classified into 50 operational taxonomic units in Ascomycota and Basidiomycota according to the base sequence of the rDNA internal transcribed spacer region. Ordination by nonmetric multidimensional scaling showed the separation of fungal compositions between the study sites which was significantly related to the latitude, longitude, and mean annual temperature (MAT) of the study sites. We applied variation partitioning to separate the magnitude of the climatic, spatial, and leaf property factors and found the roles of MAT and spatial factors in structuring fungal assemblages, suggesting the importance of both niche processes and such non-niche processes as priority effect and dispersal limitation. The bleached area on leaf litter was greater at sites with higher MAT and precipitation located at lower latitudes and at sites where some major ligninolytic fungi occurred at greater relative frequencies, indicating that not only the climatic conditions but also the biogeographic patterns of distribution of ligninolytic fungi influence the decomposition of lignin in leaf litter., (Copyright © 2020 Osono, Matsuoka and Hirose.)

Published
2020
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18. Decomposition of Organic Chemical Components in Wood by Tropical Xylaria Species.

Author

Osono T

Abstract

The ability of Xylaria species obtained from tropical wood and leaf litter to cause a mass loss of lignin and carbohydrates in wood was examined in vitro with pure culture decomposition tests. The mass loss of wood of four tree species caused by nine Xylaria isolates ranged from 4.5% to 28.4% of the original wood mass. These Xylaria isolates have a potential ability to decompose lignin and other recalcitrant compounds, collectively registered as acid unhydrolyzable residues or Klason lignin in wood. The origin of isolates (i.e., isolates from wood versus leaf litter) did not affect the mass loss of acid unhydrolyzable residue in wood. The Xylaria isolates tested generally caused a selective decomposition of polymer carbohydrates in wood in preference to acid unhydrolyzable residue. The mass loss of acid unhydrolyzable residue caused by Xylaria isolates varied with the tree species of the wood and was negatively related to the initial content of acid unhydrolyzable residue in wood, implying the limiting effect of lignin and recalcitrant compounds on wood decomposition by Xylaria isolates.

Published
2020
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19. Two-years of investigation revealed the inconsistency of seasonal dynamics of an ectomycorrhizal fungal community in Japanese cool-temperate forest across years.

Author

Sugiyama Y, Matsuoka S, and Osono T

Subjects
Arctic Regions, Biodiversity, Forests, Japan, Seasons, Soil Microbiology, Trees, Mycobiome, Mycorrhizae
Abstract

Ectomycorrhizal (ECM) fungal communities show temporal dynamics. Such dynamics have been mainly assessed with 1 year of investigations and have been related to the seasonal changes in environment. Recent study in sub-tropical region has revealed that stochastic temporal-based process can affect ECM fungal community, making the community of the same season different between years. The different community structures across years have also been observed in the Arctic region with a grass host. Nevertheless, in temperate zones, the effect of temporal-based processes and the consistency of seasonal dynamics have never been investigated. We conducted a 2-year root sampling in a cool temperate Fagus crenata forest to test whether the temporal variation of ECM fungal community composition could be explained by season. The explanation powers of temporal distance and environmental factors for the temporal dynamics of ECM fungal community were simultaneously evaluated. The variation in community structure was significantly explained by year but not by season, indicating that seasonal community structure differed between years. This difference in the community structure across years was partly explained by temporal factors. Our study implies that the temporal dynamics of ECM fungal communities in temperate forests are affected by temporal-based factors and can vary across years., (© FEMS 2020.)

Published
2020
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20. Evaluation of host effects on ectomycorrhizal fungal community compositions in a forested landscape in northern Japan.

Author

Matsuoka S, Sugiyama Y, Tateno R, Imamura S, Kawaguchi E, and Osono T

Abstract

Community compositions of ectomycorrhizal (ECM) fungi are similar within the same host taxa. However, careful interpretation is required to determine whether the combination of ECM fungi and plants is explained by the host preference for ECM fungi, or by the influence of neighbouring heterospecific hosts. In the present study, we aimed to evaluate the effects of host species on the ECM community compositions in a forested landscape (approx. 10 km) where monodominant forest stands of six ECM host species belonging to three families were patchily distributed. A total of 180 ECM operational taxonomic units (OTUs) were detected with DNA metabarcoding. Quantitative multivariate analyses revealed that the ECM community compositions were primarily structured by host species and families, regardless of the soil environments and spatial arrangements of the sampling plots. In addition, 38 ECM OTUs were only detected from particular host tree species. Furthermore, the neighbouring plots harboured similar fungal compositions, although the host species were different. The relative effect of the spatial factors on the ECM compositions was weaker than that of host species. Our results suggest that the host preference for ECM fungi is the primary determinant of ECM fungal compositions in the forested landscape., Competing Interests: We declare we have no competing interests., (© 2020 The Authors.)

Published
2020
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21. Biogeographic Patterns of Ectomycorrhizal Fungal Communities Associated With Castanopsis sieboldii Across the Japanese Archipelago.

Author

Matsuoka S, Iwasaki T, Sugiyama Y, Kawaguchi E, Doi H, and Osono T

Abstract

Biogeographic patterns in ectomycorrhizal (ECM) fungal communities and their drivers have been elucidated, including effects of host tree species and abiotic (climatic and edaphic) conditions. At these geographic scales, genotypic diversity and composition of single host tree species change with spatial and environmental gradients, reflecting their historical dispersal events. However, whether the host genotypes can be associated with the biogeographic patterns of ECM communities remains unclear. We investigated the biogeographic pattern of ECM fungal community associated with the single host species Castanopsis sieboldii (Fagaceae), whose genotypic diversity and composition across the Japanese archipelago has already been evaluated. ECM communities were investigated in 12 mature Castanopsis -dominated forests covering almost the entire distribution range of C. sieboldii , and we quantified the effect of host genotypes on the biogeographic pattern of ECM fungal communities. Richness and community composition of ECM fungi changed with latitude and longitude; these biogeographic changes of ECM community were significantly correlated with host genotypic variables. Quantitative analyses showed a higher relative explanatory power of climatic and spatial variables than that of host genotypic variables for the biogeographic patterns in the ECM community. Our results suggest historical events of host dispersal can affect the biogeographic patterns of the ECM fungal community, while their explanation power was lower than that for climatic filtering and/or fungal dispersal., (Copyright © 2019 Matsuoka, Iwasaki, Sugiyama, Kawaguchi, Doi and Osono.)

Published
2019
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22. Light quality determines primary production in nutrient-poor small lakes.

Author

Tanabe Y, Hori M, Mizuno AN, Osono T, Uchida M, Kudoh S, and Yamamuro M

Abstract

The availability of nutrients for primary producers has long been thought to be the main limiting factor for primary productivity in nutrient-poor lake ecosystems. However, recent studies have indicated that the availability of light energy is also important. On the other hand, the amount of phototroph was reported to decrease in summer in Antarctic lakes, furthermore, the light environment underwater was shown containing high amount of ultraviolet energy in small Antarctic lakes. Here, we hypothesized that primary productivity is limited by not only nutrients and simple light quantity but also light quality in nutrient-poor lakes. Then, we investigate factors influencing primary production by benthic phototrophic communities in shallow nutrient-poor lakes. We examine the relationships between primary production in 17 Antarctic freshwater lakes and nutrient concentrations in lake and benthic water, temperature and light energy. Primary production is decreased by ultraviolet energy reaching the lake bed, showing that production is determined by light quality. We also correlate ultraviolet energy in lake water with the catchment area of each lake. Our results show that the underwater light environment has an important influence on primary production as a key limitation factor and is sensitive to materials in runoff from the surrounding environment for pristine lakes.

Published
2019
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23. Temporal distance decay of similarity of ectomycorrhizal fungal community composition in a subtropical evergreen forest in Japan.

Author

Matsuoka S, Kawaguchi E, and Osono T

Subjects
Biodiversity, Climate, Forests, Japan, Seasons, Trees classification, Fagaceae microbiology, Mycorrhizae classification, Plant Roots microbiology, Trees microbiology
Abstract

Community compositions of ectomycorrhizal (ECM) fungi are known to show spatial distance decay of similarity, which arises from both deterministic niche-based processes and stochastic spatial-based processes (e.g. dispersal limitation). Recent studies have highlighted the importance of incorporating the spatial-based processes in the study of community ecology of ECM fungi. However, few studies have investigated the temporal distance decay of similarity of ECM fungal communities. More specifically, the role of stochastic temporal-based processes, which could drive the temporal distance decay of similarity independently of niche-based processes, in the temporal variation of the communities remains unclear. Here we investigated ECM fungi associated with roots of Castanopsis sieboldii at 3-month intervals over a 2-year period. We found that dissimilarity of the ECM fungal community composition was significantly correlated with temporal distance but not with environmental distance among sampling dates. Both climatic and temporal variables significantly explained the temporal variation of the community composition. These results suggest that temporal variations of ECM fungi can be affected not only by niche-based processes but also by temporal-based processes. Our findings imply that priority effects may play important roles in the temporal turnover of ECM fungal community at the site., (© FEMS 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2016
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24. Disentangling the relative importance of host tree community, abiotic environment and spatial factors on ectomycorrhizal fungal assemblages along an elevation gradient.

Author

Matsuoka S, Mori AS, Kawaguchi E, Hobara S, and Osono T

Subjects
Altitude, Biodiversity, Japan, Mycorrhizae isolation & purification, Mycorrhizae physiology, Trees classification, Trees physiology, Mycorrhizae classification, Soil Microbiology, Trees microbiology
Abstract

Recent studies have shown that changes in community compositions of ectomycorrhizal (ECM) fungi along elevation gradients are mainly affected by changes in host tree communities and/or in abiotic environments. However, few studies have taken the effects of processes related to fungal dispersal (i.e. spatial processes) into account and distinguished the effects of host community, abiotic environment and spatial processes on community composition along elevation gradients. This has left unclear the relative importance of these factors in structuring the ECM community assemblages. To address this, we investigated the community composition of ECM fungi along an elevation gradient in northern Japan with 454 meta-barcoding. We found that the community composition of ECM fungi changed along the elevation and that all three factors jointly affected the compositional changes. We separated the magnitude of importance of the three factors in structuring ECM fungal communities and found that most of the spatial variation in ECM fungal community was explained by host communities and abiotic environments. Our results suggest that while biotic and/or abiotic environments can be important factors in determining the ECM fungal community composition along an elevation gradient, spatial processes may also be a primary determinant., (© FEMS 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2016
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25. Low multifunctional redundancy of soil fungal diversity at multiple scales.

Author

Mori AS, Isbell F, Fujii S, Makoto K, Matsuoka S, and Osono T

Subjects
Japan, Biodiversity, Ecosystem, Fungi physiology, Soil Microbiology
Abstract

Theory suggests that biodiversity might help sustain multiple ecosystem functions. To evaluate possible biodiversity-multifunctionality relationships in a natural setting, we considered different spatial scales of diversity metrics for soil fungi in the northern forests of Japan. We found that multifunctionality increased with increasing local species richness, suggesting a limited degree of multifunctional redundancy. This diversity-multifunctionality relationship was independent of the compositional uniqueness of each community. However, we still found the importance of community composition, because there was a positive correlation between community dissimilarity and multifunctional dissimilarity across the landscape. This result suggests that functional redundancy can further decrease when spatial variations in identities of both species and functions are simultaneously considered at larger spatial scales. We speculate that different scales of diversity could provide multiple levels of insurance against the loss of functioning if high-levels of local species diversity and compositional variation across locations are both maintained. Alternatively, making species assemblages depauperate may result in the loss of multifunctionality., (© 2015 John Wiley & Sons Ltd/CNRS.)

Published
2016
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26. Bleaching of leaf litter and associated microfungi in subboreal and subalpine forests.

Author

Hagiwara Y, Matsuoka S, Hobara S, Mori AS, Hirose D, and Osono T

Subjects
Ascomycota genetics, Ascomycota metabolism, Base Sequence, Basidiomycota genetics, Basidiomycota metabolism, Cold Climate, Forests, Japan, Molecular Sequence Data, Phylogeny, Plant Leaves genetics, Plant Leaves metabolism, Plant Leaves microbiology, Sequence Analysis, DNA, Ascomycota isolation & purification, Basidiomycota isolation & purification, Betula microbiology, Lignin metabolism, Picea microbiology, Quercus microbiology
Abstract

Fungal decomposition of lignin leads to the whitening, or bleaching, of leaf litter, especially in temperate and tropical forests, but less is known about such bleaching in forests of cooler regions, such as boreal and subalpine forests. The purposes of the present study were to examine the extent of bleached area on the surface of leaf litter and its variation with environmental conditions in subboreal and subalpine forests in Japan and to examine the microfungi associated with the bleaching of leaf litter by isolating fungi from the bleached portions of the litter. Bleached area accounted for 21.7%-32.7% and 2.0%-10.0% of total leaf area of Quercus crispula and Betula ermanii, respectively, in subboreal forests, and for 6.3% and 18.6% of total leaf area of B. ermanii and Picea jezoensis var. hondoensis, respectively, in a subalpine forest. In subboreal forests, elevation, C/N ratio and pH of the FH layer, and slope aspect were selected as predictor variables for the bleached leaf area. Leaf mass per area and lignin content were consistently lower in the bleached area than in the nonbleached area of the same leaves, indicating that the selective decomposition of acid unhydrolyzable residue (recalcitrant compounds such as lignin, tannins, and cutins) enhanced the mass loss of leaf tissues in the bleached portions. Isolates of a total of 11 fungal species (6 species of Ascomycota and 5 of Basidiomycota) exhibited leaf-litter-bleaching activity under pure culture conditions. Two fungal species (Coccomyces sp. and Mycena sp.) occurred in both subboreal and subalpine forests, which were separated from each other by approximately 1100 km.

Published
2015
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27. Assessment of the fungal diversity and succession of ligninolytic endophytes in Camellia japonica leaves using clone library analysis.

Author

Hirose D, Matsuoka S, and Osono T

Subjects
Endophytes metabolism, Plant Leaves microbiology, Trees, Camellia microbiology, Endophytes genetics, Lignin metabolism
Abstract

Fungal assemblages in live, newly shed and partly decomposed leaves of Camellia japonica were investigated with a clone library analysis to assess the fungal diversity and succession in a subtropical forest in southern Japan. Partly decomposed leaves were divided into bleached and adjacent nonbleached portions to estimate the fungi functionally associated with lignin decomposition in the bleached portions, with an emphasis on Coccomyces sinensis (Rhytismataceae, Ascomycota). From 144 cloned 28S ribosomal DNA (rDNA) sequences, 48 operational taxonomic units (OTUs) were defined based on a sequence similarity threshold of 98%. Forty-one (85%) of the 48 OTUs belonged to the Ascomycota and seven OTUs (15%) to the Basidiomycota. Twenty-six OTUs (54%) were detected only once (singletons). The number of OTUs and the diversity indices of the fungal assemblages in the different leaves were in this order: live leaves > newly shed leaves > bleached portions > nonbleached portions of partly decomposed leaves. The fungal assemblages were similar in newly shed leaves and the bleached portions of partly decomposed leaves. Ligninolytic fungi of the genera Coccomyces, Lophodermium and Xylaria were frequently detected in the bleached portions. OTU3, identified as Coccomyces sinensis, was detected in live and newly shed leaves and the bleached portions of partly decomposed leaves, suggesting that this fungus latently infects live leaves, persists after leaf fall and takes part in lignin decomposition.

Published
2013
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28. Endophytic fungi associated with leaves of Betulaceae in Japan.

Author

Osono T and Masuya H

Subjects
Climate, DNA, Ribosomal, Endophytes genetics, Endophytes isolation & purification, Fungi genetics, Fungi isolation & purification, Japan, Plant Leaves microbiology, Seasons, Betulaceae microbiology, Endophytes classification, Fungi classification
Abstract

Diversity and species composition of endophytic fungi on leaves of 11 tree species in Betulaceae were studied, with reference to climatic, tree species, and seasonal variations. A total of 186 fungal isolates were obtained from 190 leaves collected in a subalpine forest, a cool temperate forest, and a subtropical forest in Japan, and were divided into 46 operational taxonomic units (OTUs) according to the base sequences of D1-D2 region of large subunit rDNA. The 2 most frequent OTUs were Muscodor sp. and Nemania sp. in Xylariaceae, followed by Gnomonia sp., Glomerella acutata , Apiosporopsis sp., Asteroma sp., and Cladosporium cladosporioides . The similarities of OTU composition in endophytic fungal assemblages on leaves of Betulaceae were generally low among the forests of different climatic regions. Fungal OTU compositions were relatively similar between 2 Betula species in the subalpine forest, whereas 7 tree species in the cool temperate forest were divided into 3 groups according to the similarity of endophytic fungal assemblages on the leaves, with 4 Carpinus species assigned into 2 of the 3 groups. The similarity of endophytic fungal assemblages between August and October was relatively high in the subalpine forest, whereas the seasonal changes were generally greater (i.e., the similarities among sampling dates were lower) in the cool temperate forest.

Published
2012
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29. Wood decomposing abilities of diverse lignicolous fungi on nondecayed and decayed beech wood.

Author

Fukasawa Y, Osono T, and Takeda H

Subjects
Ascomycota metabolism, Basidiomycota metabolism, Cellulose analysis, Mortierella metabolism, Mucor metabolism, Trees chemistry, Trees metabolism, Water, Wood chemistry, Wood metabolism, Fagus metabolism, Fagus microbiology, Fungi metabolism, Trees microbiology, Wood microbiology
Abstract

We tested the decay abilities of 28 isolates from 28 lignicolous fungal species (Basidiomycota, Ascomycota and Zygomycota) with the pure culture test. We used beech wood powder in varying moisture conditions and decay stages (nondecayed, intermediately decayed and well decayed) as substrates. The weight loss in wood powder was -0.2-17.8%. Five isolates of Basidiomycota (Bjerkandera adusta, Mycena haematopus, Omphalotus guepiniformis, Trametes hirsuta, Trametes versicolor) caused high weight losses in nondecayed wood. We detected significant effects of decay stage on weight loss in wood in most isolates tested, whereas moisture content rarely had an effect on weight loss. Among Basidiomycota and Xylariaceae in Ascomycota weight loss was greater for nondecayed wood than for intermediately and well decayed wood. In contrast four isolates in Ascomycota (Scytalidium lignicola, Trichoderma hamatum, T. harzianum, T. koningii) caused substantial weight loss in intermediately and well decayed wood, although they rarely caused weight loss in nondecayed wood. Zygomycota caused low weight loss in wood. Wood decay stages also affected decomposition of wood chemical components. Acid-unhydrolyzable residue (AUR) decomposition was reduced, whereas holocellulose decomposition was stimulated by some strains of Basidiomycota and Ascomycota in well decayed wood. T. harzianum in particular caused significant weight loss of holocellulose in well decayed wood, although this fungus caused negligible weight loss of both AUR and holocellulose in nondecayed wood. We discuss these changes in the decay patterns of AUR and holocellulose with varying wood decay stages in relation to the role of fungal decomposition of woody debris in forests.

Published
2011
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30. Altitudinal distribution of microfungi associated with Betula ermanii leaf litter on Mt. Rishiri, northern Japan.

Author

Osono T and Hirose D

Subjects
Altitude, Biodiversity, Ecosystem, Fungi classification, Fungi genetics, Japan, Molecular Sequence Data, Phylogeny, Betula microbiology, Fungi isolation & purification, Plant Leaves microbiology
Abstract

The altitudinal distribution of microfungi associated with Betula ermanii Cham. leaf litter was investigated on Mt. Rishiri (1719 m), northern Japan. Fallen leaves were collected at five sites of different altitudes (approximately 300, 600, 900, 1200, and 1500 m above sea level) along a transect on the northern slope of Mt. Rishiri. A total of 35 species were isolated from Betula leaf litter of which 12 occurred frequently and were regarded as dominant microfungi. Species richness, diversity, and equitability of microfungal assemblages were lower at Site 1500 than at the other sites. Similarities in species composition were relatively high among Sites 300, 600, and 900, but similarities between these sites and sites at the higher altitudes (i.e., Sites 1200 and 1500) were relatively low. Similarity of species composition was relatively low between Sites 1200 and 1500. Cluster analysis showed that the 12 major microfungal species were classified into four groups according to their pattern of altitudinal distribution that peaked at Sites 600, 900, 1200, and 1500, respectively. These results suggest that the diversity and species composition of Betula microfungi are sensitive to environmental changes along the altitudinal transect on Mt. Rishiri, and this is especially so at the altitudes higher than approximately 1200 m. This implies that future environmental changes will have impacts on mountainous ecosystems through the changes in diversity and functional aspects of microfungal assemblages.

Published
2009
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31. Hydrogen peroxide resistance of Acetobacter pasteurianus NBRC3283 and its relationship to acetic acid fermentation.

Author

Okamoto-Kainuma A, Ehata Y, Ikeda M, Osono T, Ishikawa M, Kaga T, and Koizumi Y

Subjects
Acetobacter genetics, Amino Acid Sequence, Catalase metabolism, Cloning, Molecular, DNA-Binding Proteins chemistry, DNA-Binding Proteins genetics, Microbial Viability drug effects, Molecular Sequence Data, Mutation genetics, Repressor Proteins chemistry, Repressor Proteins genetics, Sequence Alignment, Sequence Homology, Amino Acid, Acetic Acid metabolism, Acetobacter drug effects, Acetobacter metabolism, Fermentation drug effects, Hydrogen Peroxide pharmacology
Abstract

The bacterium Acetobacter pasteurianus can ferment acetic acid, a process that proceeds at the risk of oxidative stress. To understand the stress response, we investigated catalase and OxyR in A. pasteurianus NBRC3283. This strain expresses only a KatE homolog as catalase, which is monofunctional and growth dependent. Disruption of the oxyR gene increased KatE activity, but both the katE and oxyR mutant strains showed greater sensitivity to hydrogen peroxide as compared to the parental strain. These mutant strains showed growth similar to the parental strain in the ethanol oxidizing phase, but their growth was delayed when cultured in the presence of acetic acid and of glycerol and during the acetic acid peroxidation phase. The results suggest that A. pasteurianus cells show different oxidative stress responses between the metabolism via the membrane oxidizing pathway and that via the general aerobic pathway during acetic acid fermentation.

Published
2008
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32. Colonization and decomposition of salal (Gaultheria shallon) leaf litter by saprobic fungi in successional forests on coastal British Columbia.

Author

Osono T, Iwamoto S, and Trofymow JA

Subjects
Biodegradation, Environmental, Biomass, British Columbia, Fungi isolation & purification, Gaultheria chemistry, Gaultheria microbiology, Plant Leaves chemistry, Plant Leaves microbiology, Pseudotsuga chemistry, Pseudotsuga microbiology, Soil Microbiology, Trees chemistry, Trees microbiology, Fungi metabolism, Gaultheria metabolism, Plant Leaves metabolism, Pseudotsuga metabolism, Trees metabolism
Abstract

The colonization of leaf litter by saprobic fungi was studied in old-growth and post-harvest successional Douglas-fir forests on southeast Vancouver Island, British Columbia. This study focused on leaf litter of salal (Gaultheria shallon Pursh.), a dominant understory shrub in all stands. Salal litter is characterized by the occurrence of bleached portions attributable to fungal colonization of the litter and to the variable decomposition of recalcitrant compounds, such as lignin. Analyses of proximate chemical fractions, fungal assemblages on the bleached leaf area, and pure culture decomposition assays indicated that Marasmius sp. and Coccomyces sp. were responsible for rapid decomposition and bleaching of salal leaf litter. The bleached area accounted for 17%-22% of total area of salal leaf litter collected in immature (40-60 years old), mature (85-105 years old), and old-growth (more than 290 years old) stands, but for only 2% in regeneration (5-15 years old) stands. The reduction of bleached leaf area occupied by Marasmius sp. and Coccomyces sp. in regeneration stands could be due to the changes in microenvironmental conditions on the forest floor, in litter quality, or in food-web structure in soils. The decrease of fungi able to decay recalcitrant compounds may lead to a reduction of salal decomposition rates in clear-cut sites that would persist until canopy closure occurs.

Published
2008
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33. Endophytic and epiphytic phyllosphere fungi of Camellia japonica: seasonal and leaf age-dependent variations.

Author

Osono T

Subjects
Age Factors, Colony Count, Microbial, Plant Leaves microbiology, Seasons, Biodiversity, Camellia microbiology, Fungi classification, Fungi isolation & purification
Abstract

Seasonal and leaf age-dependent variations in the endophytic and epiphytic phyllosphere fungal assemblages of Camellia japonica were examined and compared. Live leaves of C. japonica were collected in four seasons (May, Aug, Nov, Feb), and fungi were isolated from healthy-looking leaves of 0, 1, 2 and 3 y old. The infection rate and total number of endophytic fungi increased May-Feb, and species richness of endophytes increased as leaves aged. In contrast the infection rate of epiphytic fungi was 100% for all leaf ages at every sampling date. The total number of epiphytic fungi isolated was greatest in May and lowest in Aug. The species richness of epiphytes did not differ significantly by season or leaf age. Eight fungal species were recorded as major phyllosphere fungi of C. japonica. Seasonal variations were detected for the frequencies of Colletotrichum gloeosporioides, C. acutatum, and epiphytes Pestalotiopsis sp.1, Aureobasidium pullulans, Phoma sp.1 and Ramichloridium sp., whereas the frequency of the endophyte Geniculosporium sp.1 varied with leaf age. The frequency of the epiphyte Cladosporium cladosporioides varied with both season and leaf age.

Published
2008
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34. Microfungi associated with Abies needles and Betula leaf litter in a subalpine coniferous forest.

Author

Osono T and Takeda H

Subjects
Biodiversity, Fungi growth & development, Japan, Plant Leaves microbiology, Seasons, Abies microbiology, Betula microbiology, Ecosystem, Fungi classification, Soil Microbiology, Trees
Abstract

We investigated microfungal assemblages on leaf litter within a subalpine forest in central Japan and their variation with season, litter depth, and litter species. Microfungal assemblages were compared for Abies needles and Betula leaf litter collected from litter and fermentation layers of the forest floor during the growing season in spring, summer, and autumn. A total of 35 and 42 species were isolated from Abies needles and Betula leaf litter, respectively. The observed variation in microfungal assemblages was primarily attributable to seasonal differences. The frequencies of Trichoderma viride, Volutella ciliata, Mucor sp., and Umbelopsis ramanniana increased in summer, leading to a high degree of similarity of microfungal assemblages in different litter depths and litter species. Microfungal assemblages on Abies needles in spring and autumn and those on Betula leaves in spring were characterized by Trichoderma viride, V. ciliata, Thysanophora penicillioides, Trichoderma polysporum, and (or) Mortierella alpina. Microfungal assemblages on Betula leaves in autumn were characterized by the absence of these species and the occurrence of Cladosporium cladosporioides. The results were discussed with an emphasis on the role of microfungi in decomposition processes and the impact on fungi of predicted future increases in global temperature.

Published
2007
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35. Role of phyllosphere fungi of forest trees in the development of decomposer fungal communities and decomposition processes of leaf litter.

Author

Osono T

Subjects
Food Chain, Fungi classification, Geography, Soil Microbiology, Ecosystem, Fungi growth & development, Fungi metabolism, Plant Leaves metabolism, Plant Leaves microbiology, Trees microbiology
Abstract

The ecology of endophytic and epiphytic phyllosphere fungi of forest trees is reviewed with special emphasis on the development of decomposer fungal communities and decomposition processes of leaf litter. A total of 41 genera of phyllosphere fungi have been reported to occur on leaf litter of tree species in 19 genera. The relative proportion of phyllosphere fungi in decomposer fungal communities ranges from 2% to 100%. Phyllosphere fungi generally disappear in the early stages of decomposition, although a few species persist until the late stages. Phyllosphere fungi have the ability to utilize various organic compounds as carbon sources, and the marked decomposing ability is associated with ligninolytic activity. The role of phyllosphere fungi in the decomposition of soluble components during the early stages is relatively small in spite of their frequent occurrence. Recently, the roles of phyllosphere fungi in the decomposition of structural components have been documented with reference to lignin and cellulose decomposition, nutrient dynamics, and accumulation and decomposition of soil organic matter. It is clear from this review that several of the common phyllosphere fungi of forest trees are primarily saprobic, being specifically adapted to colonize and utilize dead host tissue, and that some phyllosphere fungi with marked abilities to decompose litter components play important roles in decomposition of structural components, nutrient dynamics, and soil organic matter accumulation.

Published
2006
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36. Fungal decomposition of Abies needle and Betula leaf litter.

Author

Osono T and Takeda H

Subjects
Abies chemistry, Ascomycota metabolism, Basidiomycota metabolism, Betula chemistry, Biodegradation, Environmental, Carbohydrate Metabolism, Fungi classification, Lignin metabolism, Plant Leaves chemistry, Abies metabolism, Betula metabolism, Fungi metabolism, Plant Leaves metabolism
Abstract

The effect of litter type and incubation temperature on the ability of fungi to decompose leaf litter of subalpine trees was examined by a pure-culture test. Mass loss of Abies needle and Betula leaf litter and utilization patterns of lignin and carbohydrates were investigated under two temperature conditions (20 C and 10 C) and compared for 29 species in basidiomycetes, ascomycetes and zygomycetes. The decomposing ability was generally higher in basidiomycetes than in ascomycetes and zygomycetes. Mass loss (% original mass) of litter was higher in Betula than in Abies and higher at 20 C than at 10 C. The 29 fungi were divided into lignocellulose decomposers, cellulose decomposers and sugar fungi based on their substrate utilization in Abies and Betula litter. Mass loss of lignin and carbohydrates by lignocellulose and cellulose decomposers was higher in Betula than in Abies. Mass loss of carbohydrates was higher at 20 C than at 10 C, but the temperature did not influence mass loss of lignin, indicating lignin decomposition by fungi was less sensitive to temperature than carbohydrate decomposition. Lignin/carbohydrate loss ratio (L/C) of Collybia spp. that caused selective delignification was lower at 20 C than at 10 C. These results indicate that the decomposability of litter, lignin and carbohydrate was different between Abies and Betula and that temperature affected not only the rate at which fungi decompose litter but also the ability of fungi to use lignin and carbohydrates.

Published
2006
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37. Colonization and succession of fungi during decomposition of Swida controversa leaf litter.

Author

Osono T

Subjects
Biomass, Carbohydrates analysis, Cellulose analysis, Fungi classification, Fungi metabolism, Hyphae cytology, Lignin analysis, Nitrogen analysis, Plant Leaves chemistry, Cornaceae microbiology, Fungi isolation & purification, Plant Leaves metabolism, Plant Leaves microbiology
Abstract

Decomposition processes of Swida controversa leaves were investigated in initially sterilized (fungi-excluded) and nonsterilized freshly fallen leaves to examine the relationship between chemical changes and fungal succession during decomposition and the effect of exclusion of previously established phyllosphere fungi from leaves on subsequent decomposition and fungal succession. Fifteen species were isolated frequently from decomposing leaves with surface-disinfection and washing methods. These fungi were divided into early and late colonizers according to their occurrence during decomposition. The 1.5 y decomposition process was divided into three stages characterized by different dominant organic chemical constituents. A clear relationship was demonstrated between chemical changes and fungal succession. Total hyphal length and frequencies of some early colonizers were reduced in initially sterilized leaves at 3 wk, but this had no significant effect on loss of litter mass or chemical changes during the first 3 wk or on the subsequent decomposition and fungal succession.

Published
2005
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38. Roles of diverse fungi in larch needle-litter decomposition.

Author

Osono T, Fukasawa Y, and Takeda H

Abstract

Functional biodiversity of fungi in larch (Larix leptolepis) forests needle-litter decomposition was examined by a pure-culture test. Weight loss of larch-needle litter, utilization pattern of lignocellulose and chemical composition of remaining litter were investigated and compared for 31 isolates in 27 species of basidiomycetes and ascomycetes. Weight loss (% original weight) of litter ranged from -2.0% to 14.2%. Mean weight loss of litter caused by the basidiomycetes was not significantly different from that caused by the ascomycetes. Basidiomycetes caused loss of lignin and carbohydrates in variable proportions, while ascomycetes exclusively attacked carbohydrates without delignification. The content of lignin and nitrogen in remaining litter was not significantly correlated when both basidiomycetes and ascomycetes were included. However, the correlation coefficient was significant when the relationship was examined separately for basidiomycetes, indicating that the degree of selective delignification determined the final nitrogen content in litter. Possible effects of fungal colonization on needle-litter decomposition in larch forests are discussed.

Published
2003

39. Comparison of litter decomposing ability among diverse fungi in a cool temperate deciduous forest in Japan.

Author

Osono T and Takeda H

Abstract

The litter decomposing ability of 79 fungal isolates (41 genera, 60 species) was assessed with the pure culture decomposition test. The isolates were collected qualitatively in a cool temperate deciduous forest in Japan during a 21-mo period. Loss of original weight of sterilized litter ranged from 0.1% to 57.6%. Six isolates in the Basidiomycota caused high weight losses ranging from 15.1% to 57.6%. Fourteen isolates in Xylaria and Geniculosporium (the Xylariaceae and its anamorph) also caused high weight losses ranging from 4.0% to 14.4%. Other isolates in the Ascomycota and associated anamorphs and in the Zygomycota caused low weight losses on mean. Six fungi in the Basidiomycota, and all in the Xylariaceae showed a bleaching activity of the litter and caused lignin and carbohydrate decomposition. Mean lignin/weight loss ratios (L/W) and lignin/carbohydrate loss ratios (L/C), were 0.9 and 0.7 for the Basidiomycota and 0.7 and 0.4 for the Xylariaceae, respectively. Significant differences were found in L/W and L/C between the two groups when the result of Xylaria sp. that showed marked delignification was excluded. These differences in lignin and carbohydrate utilization patterns are discussed in relation to the structural and the chemical properties of the decomposed litter and to the implications for organic chemical changes during litter decomposition processes.

Published
2002

40. Pharmacokinetics of macrolides, lincosamides and streptogramins.

Author

Osono T and Umezawa H

Subjects
Animals, Anti-Bacterial Agents pharmacology, Bacteria drug effects, Humans, Kinetics, Leucomycins blood, Leucomycins metabolism, Lincosamides, Male, Mice, Species Specificity, Staphylococcus aureus drug effects, Structure-Activity Relationship, Tissue Distribution, Virginiamycin metabolism, Anti-Bacterial Agents metabolism, Macrolides
Abstract

Macrolide antibiotics are known to be effective in spite of their low blood levels. This results in an exception to the customary rule of antibiotics evaluation, of judging the in-vivo effect of an antibiotic in terms of blood levels and MICs. Most efforts to improve blood levels of macrolides have been unsuccessful because of hepatic toxicity. Intravenous administration of macrolides has been difficult because of the frequent incidence of severe side effects. In the present paper, the in-vivo distribution characteristics and metabolic features of macrolides are summarized with some mention of those of lincosamides and streptogramins. Results show that macrolides are intrinsically toxic to man as a protein synthesis inhibitor, but that they are easily metabolized and destroyed in the body. In the course of this destruction, minute amount of a macrolide and its active metabolites distribute selectively in some tissues owing to their higher tissue affinity. Thus a delicate balance between tissue affinity and metabolism makes effective and safe oral therapy with minimum side activities.

Published
1985
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41. Purification, fine structure and characterization of temperate phages from drug-resistant Staphylococcus aureus.

Author

Saito T, Osono T, Inoue M, and Mitsuhashi S

Subjects
DNA, Viral, Drug Resistance, Microbial, Lysogeny, Molecular Weight, Nucleic Acid Conformation, Staphylococcus Phages growth & development, Staphylococcus Phages ultrastructure, Staphylococcus aureus drug effects, Viral Plaque Assay, Staphylococcus Phages isolation & purification
Abstract

Three kinds of temperate Staphylococcus aureus phages were differentiated by serological, sedimentation and electron microscopic studies. Phage S1 had a long hexagonal head and a long tail, a density in Cs2SO4 of 1.364 g/ml and belonged to serological group A; phage S2 had a short hexagonal head and a short tail, a density of 1.385 to 1.392 g/ml and belonged to serological group B; phage S3 had a shape similar to phage S2 except for some minor differences, but had a density of 1.416 g/ml and belonged to serological group F. S. aureus MS27 was found to be singly lysogenic for S2. However, S. aureus MS3878 was a doubly lysogenic strain carrying S1 and S2 and S. aureus E169 was a triply lysogenic strain carrying S1, S2 and S3. All these temperate phages showed similarity in shape to typing phages belonging to the same serological group. The temperate S. aureus phages revealed the presence of a hexagonal baseplate with spikes. The burst sizes of phages of S1, S2 and S3 were about 50, 110 and 120 respectively. The DNA from S1, S2 and S3 ranged from 29.4 to 30 megadaltons in size.

Published
1981
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44. Oganomycins, new 7-methoxy-cephalosporins produced by precursor fermentation with heterocyclic thiols.

Author

Osono T, Watanabe S, Saito T, Gushima H, Murakami K, Takahashi I, Yamaguchi H, Sasaki T, Susaki K, Takamura S, Miyoshi T, and Oka Y

Subjects
Bacteria drug effects, Cephamycins isolation & purification, Cephamycins pharmacology, Fermentation, Cephalosporins biosynthesis, Cephamycins biosynthesis, Heterocyclic Compounds metabolism, Streptomyces metabolism, Sulfhydryl Compounds metabolism
Published
1980
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48. [Josamycin propionate. 1. Physicochemical and biological properties].

Author

Osono T, Yano K, Murakami K, Miyamoto F, and Murakami K

Subjects
Animals, Lactones, Mice, Microbial Sensitivity Tests, Pneumococcal Infections drug therapy, Propionates, Staphylococcal Infections drug therapy, Streptococcal Infections drug therapy, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use
Published
1973

49. [Studies on josamycin. 3. (1) Bacteriological studies. (2) Protective effect against infections due to pathogenic bacteria. (3) Absorption, excretion, distribution in organs and in vivo activities].

Author

Osono T, Yano K, Mitamoto F, Watanabe S, and Ishida H

Subjects
Adult, Animals, Bacillus subtilis drug effects, Chloramphenicol therapeutic use, Culture Media, Drug Resistance, Microbial, Erythromycin pharmacology, Escherichia coli drug effects, Humans, Hydrogen-Ion Concentration, Immune Sera, Leucomycins pharmacology, Male, Mice, Mycoplasma drug effects, Pneumococcal Infections drug therapy, Rabbits, Rats, Sarcina drug effects, Staphylococcal Infections drug therapy, Staphylococcus drug effects, Streptococcus pneumoniae drug effects, Streptococcus pyogenes drug effects, Streptomyces, Anti-Bacterial Agents metabolism, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Infection Control
Published
1969

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